Influence of variable feeding on mesophilic and thermophilic co-digestion of Laminaria digitata and cattle manure

•Anaerobic co-digestion of L. digitata and cattle manure, at ~35 and ~50°C.•Mesophilic co-digestion showed somewhat stable specific methane, but increased volumetric yield.•Thermophilic co-digester yielded higher methane at higher input of algae compared to control.•Mesophilic co-digester performed...

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Bibliographic Details
Published in:Energy conversion and management 2014-11, Vol.87, p.513-520
Main Authors: Sarker, Shiplu, Møller, Henrik Bjarne, Bruhn, Annette
Format: Article
Language:English
Subjects:
Algae
Anaerobic digestion
Applied sciences
Cattle
Co-digestion
Energy
Exact sciences and technology
Fatty acids
Feeding
Feeding ratios
Laminaria digitata
Manure
Mesophilic
Methane
Process parameters
Reactors
Thermophilic
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Summary:•Anaerobic co-digestion of L. digitata and cattle manure, at ~35 and ~50°C.•Mesophilic co-digestion showed somewhat stable specific methane, but increased volumetric yield.•Thermophilic co-digester yielded higher methane at higher input of algae compared to control.•Mesophilic co-digester performed better in terms of various parameters except methane yield. In this study the effect of various feeding ratios on mesophilic (∼35°C) and thermophilic (∼50°C) co-digestion of brown algae Laminaria digitata and cattle manure was investigated. Algae input of 15% VS caused no influence on specific methane yield from mesophilic co-digester while deteriorated the process parameters such as the development of propionic acid in total volatile fatty acids (tVFA) pattern of the thermophilic co-digester. The accumulation of tVFA continued for the latter reactor as the feeding ratio of algae enhanced to 24% VS, but the specific methane yield improved dramatically. Same rise in feeding once again showed no improvement in specific methane yield from mesophilic co-digester even though the other process parameters stabilized or, enriched such as the gain in average volumetric methane yield. For the last feeding ratio at 41% VS algae, specific methane yield from mesophilic co-digester slightly increased which however was not still comparable with the ultimate methane yield from the cattle manure alone. The thermophilic co-digestion on the other hand yielded maximum specific methane, together with the improvement in different process characteristics, as the feeding of algae maximized at the final stage. The trend of methane production from this reactor nevertheless was sharply downward towards the end of the experiment suggesting that the optimum feeding ratio has already been achieved for the present experimental conditions.
ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2014.07.039